Recent graphene oxide/TiO2 thin film based on self-cleaning application

Graphene oxide/TiO2 (GO/TiO2) thin films works as self-cleaning device have been developed in various method onto selected substrates. It was noticeable that graphene oxide is the best form in the group of graphene family. Under self-cleaning application, the wettability test and electroconductivity...

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Veröffentlicht in:IOP conference series. Materials Science and Engineering 2019-07, Vol.572 (1)
Hauptverfasser: Azani, A, Che Halin, D S, Razak, K A, Abdullah, M M A B, Salleh, M A A M, Mahmed, N, Ramli, M M, Azhari, A W, Chobpattana, V
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container_title IOP conference series. Materials Science and Engineering
container_volume 572
creator Azani, A
Che Halin, D S
Razak, K A
Abdullah, M M A B
Salleh, M A A M
Mahmed, N
Ramli, M M
Azhari, A W
Chobpattana, V
description Graphene oxide/TiO2 (GO/TiO2) thin films works as self-cleaning device have been developed in various method onto selected substrates. It was noticeable that graphene oxide is the best form in the group of graphene family. Under self-cleaning application, the wettability test and electroconductivity of the sample was the main characteristic for self-coating study. As planned, by addition of graphene to TiO2 films produce a highly conductivity, transparent and produced promising enhanced photocatalytic activities. Moreover, superhydrophilic properties of GO/TiO2 film surface film exhibits more as compared to TiO2 film only within a short period of time. Thus under this finding, the photocatalytic activity of GO/TiO2 films will be enhance as a result of improve charge separation efficiency because of the electron injection to graphene from TiO2 conduction band. Other factor that contribute to self-cleaning activity is the electrical conductivity of the graphene added to TiO2 thin film. The graphene added to TiO2 films have a lot of potential in various indoor application due to its fantastic characteristics such as not expensive, transparent, highly conductive, exhibits superhydrophilic properties, and very much photocatalytically active.
doi_str_mv 10.1088/1757-899X/572/1/012079
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subjects Catalytic activity
Charge efficiency
Cleaning
Conduction bands
Electrical resistivity
Graphene
Photocatalysis
Substrates
Thin films
Titanium dioxide
Wettability
title Recent graphene oxide/TiO2 thin film based on self-cleaning application
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